方浩

2021年12月—，浙江大學杭州國際科創中心，“科創百人”研究員 ^[1] 

2016年3月—2021年11月，西北農林科技大學生命科學學院，副教授 ^[2] 

2015年4月—2016年3月，江南大學糧食發酵工藝與技術國家工程實驗室，講師

2010年9月—2014年12月，浙江大學生物化工，工學博士 ^[1] 

2007年9月—2010年7月，南京林業大學生物化工，工學碩士

2003年9月—2007年6月，南京林業大學生物化工，工學學士

1. 黴菌（里氏木黴）與酵母（畢赤酵母、釀酒酵母）細胞工廠構建；

2. 工業微生物系統生物學與合成生物學；

3. 木質纖維素生物煉製；

國家自然科學基金青年項目

陝西省高層次人才專項資助

陝西省青年基金

中國博士後基金特別資助

中國博士後基金面上項目（一等資助）

西北農林科技大學優秀青年人才啓動基金

江蘇省青年基金

Hao Fang*, Chen Zhao, ChaofengLi, Yuqi Song, Liang Yu, Xiangyang Song, Jianping Wu, Lirong Yang. Directconsolidated bioprocessing for D-glucaric acid production from lignocelluloseunder subcritical water pretreatment. ChemicalEngineering Journal 2023, 454: 140339.

Yingjie Pan, Jiao Yang, Jianping Wu, LirongYang, Hao Fang*. Current advances of Pichia pastoris as cell factories for production of recombinantproteins. Frontiers in Microbiology 2022,13: 1059777.

Hao Fang*, Yuntao Deng, Yingjie Pan, Chaofeng Li, Liang Yu. Distributive and collaborative pushand-pull in an artificial microbial consortium for improved consolidated bioprocessing. AIChE Journal 2022, 68(11): e17844.

Hao Fang*, Chaofeng Li, Jiajia Zhao, Chen Zhao. Trends in engineering Trichoderma reesei towards cellulase hyperproducer. Biotechnology and Bioprocess Engineering 2021, 26: 517-528.

Chaofeng Li, Xiaofeng Lin, Xing Ling, Shuo Li, Hao Fang*. Consolidated bioprocessing of lignocellulose for production of glucaric acid by an artificial microbial consortium. Biotechnology for Biofuels 2021, 14: 110. (*通訊作者)

Jie Yang, Lu Deng, Chen Zhao*, Hao Fang*. Heterologous expression of Neurospora crassa cbh1 gene in Pichia pastoris resulted in production of a neutral cellobiohydrolase I. Biotechnology Progress 2019, 35: e2795. (*通訊作者)

Hao Fang*, Runze Zhao, Chaofeng Li, Chen Zhao. Simultaneous enhancement of the beta–exo synergism and exo–exo synergism in Trichoderma reesei cellulase to increase the cellulose degrading capability cellulase. Microbial Cell Factories 2019, 18: 9.

Chen Zhao, Bing Xie, Runze Zhao, Hao Fang*. Microbial oil production by Mortierella isabellina from sodium hydroxide pretreated rice straw degraded by three-stage enzymatic hydrolysis in the context of on-site cellulase production. Renewable Energy 2019, 130: 281-9. (*通訊作者)

Chen Zhao, Shaolin Chen, Hao Fang*. Consolidated bioprocessing of lignocellulosic biomass to itaconic acid by metabolically engineering Neurospora crassa. Applied Microbiology and Biotechnology 2018, 102: 9577-84. (*通訊作者)

Chen Zhao, Bing Xie, Runze Zhao, Shaolin Chen, Hao Fang*. Intracellular amino and nonamino organic acids profiling of Trichosporon cutaneum on rich and limited nitrogen conditions for lipid production. Biomass and Bioenergy 2018, 118: 84-92. (*通訊作者)

Chen Zhao, Lu Deng, Hao Fang*. Mixed culture of recombinant Trichoderma reesei and Aspergillus niger for cellulase production to increase the cellulose degrading capability. Biomass and Bioenergy . 2018, 112: 93-98. (*通訊作者)

Chen Zhao, Zongsheng Zou, Jisheng Li, Honglei Jia, Johannes Liesche, Shaolin Chen, Hao Fang*. Efficient bioethanol production from sodium hydroxide pretreated corn stover and rice straw in the context of on-site cellulase production. Renewable Energy . 2018, 118: 14-24. (*通訊作者)

Chen Zhao, Lu Deng, Hao Fang*. Microbial oil production by Mortierella isabellina from corn stover under different pretreatments. RSC Advances. 2017, 7: 56239-56246. (*通訊作者)

Chen Zhao, Hao Fang*, Shaolin Chen. Single cell oil production by Trichosporon cutaneum from steam exploded corn stover and its upgradation for production of long chain α,ω-dicarboxylic acids. Biotechnology for Biofuels . 2017, 10: 202. (*通訊作者)

Chen Zhao, Yan Yang, Linfang Wei, Qinghua Guo, Hao Fang*, Shaolin Chen, Qiang Hua. Simultaneous determination of intracellular nucleotides and coenzymes in Yarrowia lipolytica producing lipid and lycopene by capillary zone electrophoresis. Journal of Chromatography A . 2017, 1514: 120-126. (*通訊作者)

Chen Zhao, Zongsheng Zou, Jisheng Li, Honglei Jia, Johannes Liesche, Hao Fang*, Shaolin Chen. A novel and efficient bioprocess from steam exploded corn stover to ethanol in the context of on-site cellulase production. Energy . 2017, 123: 499-510. (*通訊作者)

Hao Fang*, Chen Zhao, Qin Kong, et al. Comprehensive utilization and conversion of lignocellulosic biomass for the production of long chain α,ω-dicarboxylic acids. Energy . 2016, 116, 177-189.

Hao Fang*, Chen Zhao, Shaolin Chen. Single cell oil production by Mortierella isabellina from steam exploded corn stover degraded by three-stage enzymatic hydrolysis in the context of on-site enzyme production. Bioresource Technology . 2016, 216, 988-995.

Hao Fang, Liming Xia. Heterologous expression and production of Trichoderma reesei cellobiohydrolase II in Pichia pastoris and the application in the enzymatic hydrolysis of corn stover and rice straw. Biomass and Bioenergy . 2015, 78, 99-109.

Hao Fang, Liming Xia. Cellulase production by recombinant Trichoderma reesei and its application in enzymatic hydrolysis of agricultural residues. Fuel . 2015, 143, 211-216.

Hao Fang, Liming Xia. High activity cellulase production by recombinant Trichoderma reesei ZU-02 with the enhanced cellobiohydrolase production. Bioresource Technology . 2013, 144, 693-697.

Hao Fang, Chen Zhao, Xiang-yang Song, et al. Enhanced cellulolytic enzymes production by synergism between Trichoderma reesei RUT-C30 and Aspergillus niger NL02 and by addition of surfactants. Biotechnology and Bioprocess Engineering . 2013, 18, 390-398.

Hao Fang, Chen Zhao, Xiang-Yang Song. Optimization of enzymatic hydrolysis of steam-exploded corn stover by two approaches: Response surface methodology or using cellulase from mixed cultures of Trichoderma reesei RUT-C30 and Aspergillus niger NL02. Bioresource Technology . 2010, 101, 4111-4119.